Add to ORKGDiffusion bonding was carried out to join SiC to SiC substrates using titanium interlayers. In this study, 10 m and 20 m thick physical vapor deposited (PVD) Ti surface coatings, and 10 and 20 m thick Ti foils were used. Diffusion bonding was performed at 1250 C for PVD Ti coatings and 1200 C for Ti foil. This study investigates the microstructures of the phases formed during diffusion bonding through TEM and selected-area diffraction analysis of a sample prepared with an FIB, which allows samples to be taken from the reacted area. In all samples, Ti3SiC2, Ti5Si3Cx and TiSi2 phases were identified. In addition, TiC and unknown phases also appeared in the samples in which Ti foils were used as interlayers. Furthermore, Ti3SiC2 phases show hi...
Ceramic to metal interfaces are of interest for applications in extreme environments because they al...
In order to discuss the effect of a Ti intermediate layer on the strength of the friction-bonded joi...
A new multi-layered design of joining filler, consisting of a Ti3SiC2 layer and an in-situ reaction ...
Silicon Carbide (SiC) is a promising material for thermo-structural applications due to its excellen...
phase formation Diffusion bonding was used to join silicon carbide (SiC) to SiC substrates using thr...
This paper describes the microstructure and the formation mechanism of solid-state diffusion bonded ...
Silicon Carbide (SiC) is a promising material for thermostructural applications due to its excellent...
In order for ceramics to be fully utilized as components for high-temperature and structural applica...
International audienceThe development of titanium-based composites has been hindered largely because...
Advanced joining approaches are critically needed for the fabrication and integration of silicon car...
The interfaces between the stress-assisted diffusion bonded Ti3SiC2 and equiatomic NiTi, two distinc...
AbstractSiC-based ceramic composites are currently being considered for use in fuel cladding tubes i...
The reaction between a 0.5 to 1.0 Al film and a thick Ti substrate to form TiAl3 occurs very rapidly...
This work aims to investigate the joining of Ti6Al4V alloy to alumina by diffusion bonding using tit...
Ti and V were bonded together and subjected to high-temperature treatment at 1000 or 1100 °C for...
Ceramic to metal interfaces are of interest for applications in extreme environments because they al...
In order to discuss the effect of a Ti intermediate layer on the strength of the friction-bonded joi...
A new multi-layered design of joining filler, consisting of a Ti3SiC2 layer and an in-situ reaction ...
Silicon Carbide (SiC) is a promising material for thermo-structural applications due to its excellen...
phase formation Diffusion bonding was used to join silicon carbide (SiC) to SiC substrates using thr...
This paper describes the microstructure and the formation mechanism of solid-state diffusion bonded ...
Silicon Carbide (SiC) is a promising material for thermostructural applications due to its excellent...
In order for ceramics to be fully utilized as components for high-temperature and structural applica...
International audienceThe development of titanium-based composites has been hindered largely because...
Advanced joining approaches are critically needed for the fabrication and integration of silicon car...
The interfaces between the stress-assisted diffusion bonded Ti3SiC2 and equiatomic NiTi, two distinc...
AbstractSiC-based ceramic composites are currently being considered for use in fuel cladding tubes i...
The reaction between a 0.5 to 1.0 Al film and a thick Ti substrate to form TiAl3 occurs very rapidly...
This work aims to investigate the joining of Ti6Al4V alloy to alumina by diffusion bonding using tit...
Ti and V were bonded together and subjected to high-temperature treatment at 1000 or 1100 °C for...
Ceramic to metal interfaces are of interest for applications in extreme environments because they al...
In order to discuss the effect of a Ti intermediate layer on the strength of the friction-bonded joi...
A new multi-layered design of joining filler, consisting of a Ti3SiC2 layer and an in-situ reaction ...